# Tag Info

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Most day to day cards are not UHF-based (yet). They typically would be HF RFID, providing only short reading distances. If you would look for UHF labels, those are mainly used in apparel retail and vehicle identification use cases. Here the long reading distance is a requirement. UHF RFID is just a more recent and newer technology compared to HF, and not ...

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Let's try this: n = 10; r = 8; k = randi(r,1,n); Tag = zeros(r,n); Tag(r*(find(k)-1) + k)=1; Tag = Tag'; So: k = 8 8 5 2 2 3 7 3 7 2 Tag = 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 1 0 0 0 0 1 0 0 0 0 1 0 0 0 0 0 ...

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The problem that you are experiencing seems to be that bytes with a value above 0x7F replaced with 0x3F (the question mark ("?") character). I.e. only 7-bit values show correctly and values with the 8th bit set are turned into "?" (0x3F). E.g. for card 1, 974682D6 is "received" as 3F463F3F, because 0x97, 0x82, and 0xD6 have their 8th bit set. The source for ...

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We wrote a Windows service to communicate with the RFID reader, that listens the USB port. To communicate between windows service and browser, we hosted Signal-R in windows service. Using this approach we are able to send commands to the reader and read data on a webpage.

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I wrote my own wiegand code. Its not that difficult. I attached interrupts to the data pins and when they change I log the zero or one. You then build up the binary string and once timed out because no bits coming in. Then you convert the binary to decimal. #include <LiquidCrystal.h> int data0 = 2; //set wiegand data 0 pin int ...

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Converting the decimal number 0023151773 to hexadecimal gives you 0161449D. Looking at the output from the second reader, this seems to be part of that output: MM2C010161449D30. Thus, both readers do provide the same tag ID value (0161449D).

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The ICODE SLIX SL2S2002 uses the ISO/IEC 15693 standard. Your reader (ACR 122U) contains an NFC chip (PN532) that only supports ISO/IEC 14443 (+ MIFARE Classic) and ISO/IEC 18092 (+ Felica). Hence, your reader simply does not support the protocol required to communicate with that type of tag.

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Try removing the last two bytes on the SELECT PIV APDU: unsigned char selectBytes[] = { 0xA0, 0x00, 0x00, 0x03, 0x08, 0x00, 0x00}; self.selectPIVCommand = [[GRGrabbaCommandAPDU alloc] initWithCLA:0x00 INS:0xA4 P1:0x04 ...

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